Your search keyword '"Audun Sivertsen"' showing total 2 results

1. Antimicrobial resistance patterns in Streptococcus dysgalactiae in a One Health perspective

Author

Marte Glambek, Steinar Skrede, Audun Sivertsen, Bård Reiakvam Kittang, Alba Kaci, Christine Monceyron Jonassen, Hannah Joan Jørgensen, Norwegian Study Group on Streptococcus dysgalactiae, and Oddvar Oppegaard

Subjects

Streptococcus dysgalactiae, antibiotic resistance, One Health, whole genomic sequencing, horizontal genetic transfer, animal, Microbiology, QR1-502

Abstract

BackgroundStreptococcus dysgalactiae (SD) is an important pathogen in humans as well as in a broad range of animal species. Escalating rates of antibiotic resistance in SD has been reported in both human and veterinary clinical practice, but the dissemination of resistance determinants has so far never been examined in a One Health Perspective. We wanted to explore the occurrence of zoonotic transmission of SD and the potential for exchange of resistance traits between SD from different host populations.MethodsWe compared whole genome sequences and phenotypical antimicrobial susceptibility of 407 SD isolates, comprising all isolates obtained from human bloodstream infections in 2018 (n = 274) and available isolates associated with animal infections from the years 2018 and 2019 (n = 133) in Norway.ResultsAntimicrobial resistance genes were detected in 70 (26%), 9 (25%) and 2 (2%) of the isolates derived from humans, companion animals and livestock, respectively. Notably, distinct host associated genotypic resistomes were observed. The erm(A) gene was the dominant cause of erythromycin resistance in human associated isolates, whereas only erm(B) and lsa(C) were identified in SD isolates from animals. Moreover, the tetracycline resistance gene tet(O) was located on different mobile genetic elements in SD from humans and animals. Evidence of niche specialization was also evident in the phylogenetic analysis, as the isolates could be almost perfectly delineated in accordance with host species. Nevertheless, near identical mobile genetic elements were observed in four isolates from different host species including one human, implying potential transmission of antibiotic resistance between different environments.ConclusionWe found a phylogenetic delineation of SD strains in line with host adapted populations and niche specialization. Direct transmission of strains or genetic elements carrying resistance genes between SD from different ecological niches appears to be rare in our geographical region.

Published

2024

2. Genomic epidemiology of Streptococcus dysgalactiae subsp. equisimilis strains causing invasive disease in Norway during 2018

Author

Alba Kaci, Christine M. Jonassen, Steinar Skrede, Audun Sivertsen, The Norwegian Study Group on Streptococcus dysgalactiae, Martin Steinbakk, Oddvar Oppegaard, Aasmund Fostervold, Aleksandra Jakovljev, Annette Onken, Åshild Marvik, Nilsen Einar, Fredrik Müller, Ghantous Milad Chedid, Gunnar Skov Simonsen, Kyriakos Zaragkoulias, Reidar Hjetland, Roar Magne Baevre-Jensen, Sandra Åsheim, Ståle Tofteland, Tine Smedsund Dons, and Truls Michael Leegaard

Subjects

whole genome sequencing (WGS), SDSE, surveillance studies, genomics, horizontal genetic transfer, Microbiology, QR1-502

Abstract

BackgroundStreptococcus dysgalactiae subspecies equisimilis (SDSE) is an emerging global pathogen, yet the epidemiology and population genetics of SDSE species have not been extensively characterized.MethodsWe carried out whole genome sequencing to characterize 274 SDSE isolates causing bloodstream infections obtained through national surveillance program in 2018. We conducted multilocus sequence typing (MLST), emm-typing, core genome phylogeny, as well as investigated key features associated with virulence. Moreover, comparison to SDSE from other geographic regions were performed in order to gain more insight in the evolutionary dynamics in SDSE.ResultsThe phylogenetic analysis indicated a substantial diversity of emm-types and sequence types (STs). Briefly, 17 emm-types and 58 STs were identified that formed 10 clonal complexes (CCs). The predominant ST-types were ST20 (20%), ST17 (17%), and ST29 (11%). While CC17 and CC29 clades showed a substantial heterogeneity with well-separated emm-associated subclades, the CC20 clade harboring the stG62647 emm-type was more homogenous and the most prevalent in the present study. Moreover, we observed notable differences in the distribution of clades within Norway, as well as several disseminated CCs and also distinct geographic variations when compared to data from other countries. We also revealed extensive intra-species recombination events involving surface exposed virulence factors, including the emm gene important for phylogenetic profiling.ConclusionRecombination events involving the emm as well as other virulence genes in SDSE, are important mechanisms in shaping the genetic variability in the SDSE population, potentially offering selective advantages to certain lineages. The enhanced phylogenetic resolution offered by whole genome sequencing is necessary to identify and delimitate outbreaks, monitor and properly characterize emerging strains, as well as elucidate bacterial population dynamics.

Published

2023